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Financial Management Lecture No. 27

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1 Financial Management Lecture No. 27
Review of Risk, Portfolio Theory, CAPM Criticisms of CAPM Applications of Risk Theory Copyright: M. S. Humayun

2 Summary of Single Stock (Stand Alone) Risk & Return
Single Stock (Stand Alone Investment) Expected Return Formula (Weighted Average of Many Possible Future Outcomes for Returns of that one Stock) < r > = (p i x r i ) (where p = probability of future outcome and r is the rate of return from that outcome). Stand Alone Total Risk Formula (Standard Deviation or Spread of Distribution of Possible Future Returns) Sigma = = ( ( r i - < r i > )2 p i )) 0. 5 = (Var)0. 5 Copyright: M. S. Humayun

3 Summary of Portfolio Risk & Return
Portfolio Theory and Diversification Diversification and Risk (40 Stocks or at least 7) Expected Portfolio Return Formula (Weighted Average of Returns of Stocks in the Portfolio) rP * = rA xA + rB xB + rCxC + (for a 3-Stock Portfolio) Portfolio Risk Formula p = XA XB (XA XB A B AB ) (2 Stocks) If More than 2 Stocks, then use RISK MATRIX Copyright: M. S. Humayun

4 Summary of Beta Market Risk and Beta Coefficient (CAPM)
Single Stock Beta (=Slope of Best Fit Regression Line) = Percent Change in Stock ROR / Percent Change in Market Index ROR Portfolio Beta Risk Formula (Weighted Average Formula) Stock Beta Formula in terms of Stock Standard Deviation & Covariance A = A M AM / M = A AM / M Variance Risk formula for Market Risk of Stock: A M = A AM = Market Risk 2 Copyright: M. S. Humayun

5 Capital Market Line (CML)
CML (Capital Market Line): Parachute Graph and Efficient Frontier (Hook Shaped Curve) shows ALL possible Risk-Return Combinations for ALL combinations of stocks in the Portfolio – whether efficient or not. CML Straight Line Equation (T-Bill Portfolio and Optimal Portfolio Mix on Efficient Frontier Curve) connects rRF (Risk-free or T-Bill return) to the Tangent Point on the Efficient Frontier Curve. Represents all Risk-Return Combinations for Efficient Portfolios in the Capital Market. Assumes easy access to risk-free T-Bill Portfolio. Portfolio Risk measured using Standard Deviation Copyright: M. S. Humayun

6 Picking The Most Efficient Portfolio Capital Market Line (CML) & T-Bill Portfolio
Efficient Frontier for 3-Stock Portfolio rP* = rRF + [ (rM - rRF) / M ] P rP* 30% Capital Market Line Stock C “The Parachute” Portfolio Return Stock A 20% Optimal Portfolio Mix (50%A, 30% B, 20%C) if Risk Free T-Bill ROR = 10% 10%= rRF Stock B 20% 40% 2.5% P Portfolio with Negative or Zero Correlation Coefficient Risk 3.4% Copyright: M. S. Humayun

7 Security Market Line (SML)
SML (Security Market Line) - Cornerstone of CAPM Represents all Risk-Return Combinations for ALL Efficient Stocks in the Capital Market . Stock risk measured using Beta. Market Price of a Stock determined by Required Return on Stock which depends on Market Risk (not Total Risk). You can NOT expect to receive extra return (or compensation) for taking on Company-Specific Risk which Rational Investors have eliminated ! Efficient Market Prices are based on Market Risk Only and NOT Total Risk. The Efficient Market will only offer you a Return (and a Share Price) which is the bare minimum acceptable to Rational Diversified Investors. REQUIRED ROR vs Expected ROR SML Linear Equation & Graphical Interpretation Copyright: M. S. Humayun

8 Security Market Line (SML) ALL Efficient Stocks in Efficient Markets
Required Return (r*) rA = rRF + (rM - rRF ) A . rA= 30% Security Market Line rM= 20% Market Risk Premium for Avg Stock = 10% Risky Stock A’s Total Risk Premium = = 20% rRF= 10% A =+ 2.0 M =+ 1.0 Beta Risk ( ) Copyright: M. S. Humayun

9 Criticisms of CAPM & Alternatives
Weakness in SML: Not All Investors are rich or well-informed enough to hold Fully Diversified Portfolios therefore Market Risk (and Betas) are NOT the only relevant factor in estimating Required Return and Stock Prices. Other Efficient Market Assumptions. Taxes and Brokerage Costs that affect Investor’s analysis and estimation of Returns have been ignored Weakness in CML: Not All Investors are influential enough to be able to Borrow at the T-Bill Rate. Generally the Borrowing Rate is higher than the Lending Rate. Fama & French: CAPM ignores 2 important determinants of Higher Required ROR (1) smaller firms and (2) Low Market-to-Book Ratio. Arbitrage Pricing Model: Accounts for several factors that affect risk ie. Tax, inflation, oil price, ... Copyright: M. S. Humayun

10 Financial Management Applications of Risk-Return Theory (CAPM)
Practical Real Asset Investment Decisions and Capital Budgeting The most important NPV (and PV) Equations uses REQUIRED ROR (and NOT Expected ROR) Actual Share Pricing and Investment in Securities Gordon’s Formula for Share Pricing uses PV of Dividends which uses REQUIRED ROR Copyright: M. S. Humayun

11 Risk & Return - Must Consider BOTH
First Part of this Course - Valuation or Calculating NPV and PV which are measures of Return. We ignored Risk and origins of Required ROR. Second Part of this Course – Application of PV Concept to Valuation or Pricing of Bonds (Debt) and Shares (Equity). Again we ignored Risk and origins of Required ROR. Part 3 of the Course Introduced Risk and how it determines the Required Return used in NPV and Share Price Formulas. In Perfect Markets, Value depends on Required Return which depends on Market Risk (and not Total Risk). BUT, in Real Markets which are Imperfect and Inefficient, Total Risk is important. It can be calculated using the Sigma (Standard Deviation) Formulas, probabilities, and Expected Return. Total Risk and Expected Return must BOTH be considered in Comparing Investments. Market Risk and Required Return are Related to one another. Copyright: M. S. Humayun

12 Common Life Applications of Risk and Return Theory
Concepts of Risk & Return Theory have Wide Practical Applications that require a Creative Mind. Expected Value or Expected ROR or Expected Payoff Total Risk or Standard Deviation (based on Spread or Range of Breadth of Possible ROR outcomes) = Unique + Market Risk Systematic (or Market or Nondiversifiable) Risk (= Beta A x Sigma M). Individual Risk relative to Market or Industry. Think Out of the Box: Social Cost-Benefit Analysis of Power Plant. Environmental and Village Relocation Risk, Uncertain Savings Court Case Payoff: Claims & Penalties Uncertain likelihood of success and Opponent, Uncertain Payoff Likelihood of War: Capability & Intent (Game Theory) Magnitude of Capability vs Uncertainty of Intent Copyright: M. S. Humayun

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